SU1739456A1 - Electric power supply source - Google Patents

Abstract

Usage: in the development of secondary power sources. Invention: the device contains two single-phase transformers 1, 2 parallel to the primary windings 3, 4 of which are connected windings 10, 11 relays. Contacts 8, 9 of these relays shunt in accordance with the serially connected secondary windings 5, 6 of transformers 1, 2. The terminals of windings 5, 6 are connected to the input of a single-phase bridge rectifier 7. 2 c.p. f-ly, 2 ill. 00 th

Description

1

The invention relates to electrical engineering and can be used in the development of power sources.

A power supply is known that contains a single-phase transformer, the primary winding of which is connected to one of the phase or linear voltages of a 3-phase network, a single-phase bridge rectifier, to the output of which a load is connected.

The disadvantage of such a source is the violation of the power supply mode of the consumer in case of the disappearance of the supply voltage of the network.

Closest to the invention is a power supply comprising two single-phase transformers, each made with one primary and one secondary windings, and a three-phase bridge rectifier, with one ends of the primary windings of the transformers interconnected, the primary windings form the input terminals for connecting the three phases of the power source, one ends of the secondary windings are also connected, and their common point along with the other free ends of these windings are Terminals for connecting a three-phase bridge rectifier input.

The disadvantage of the known power source is the violation of the power supply mode of the consumer when one of the phases of the supply voltage disappears, which leads to a decrease in the reliability of the source.

The purpose of the invention is to increase reliability by maintaining a single-phase bridge voltage rectifier at the input of the network during an accident.

The goal is achieved by the fact that in a power source containing two single-phase transformers, each of which is made with one primary and one secondary windings and a rectifier, with one ends of the primary windings forming two input terminals, and the common connection point of the two ends of the primary windings forms the third input terminal, the secondary winding of the first transformer is connected in series with the secondary winding of the second transformer, and the free ends of the secondary windings form leads for connection; Each of the second windings shunted normally closed relay contacts, which windings are connected in parallel primary windings of respective transformers.

In addition, in order to maintain a single-phase bridge voltage rectifier at the input of the network, in the event of an accident, two input terminals are phase and the third is zero.

In order to maintain a single-phase line-voltage bridge rectifier at the input, in the event of an accident all three input terminals are phase, a third relay with two normally closed contacts is additionally introduced, the winding of which is connected in parallel to the series-connected primary windings, and each of the contacts is connected in series with the corresponding opener contacts of the first and second relays.

FIG. Figure 1 shows the power supply circuit connected to the mains phase voltages; in fig. 2 - the same connected to the line voltage of the network.

The power source contains two single-phase transformers 1 and 2, each of which is made with one primary winding 3, 4 and one secondary winding 5, 6. To the input of a single-phase bridge rectifier 7 there are connected free terminals connected in series according to secondary windings 5, 6. One ends The primary windings 3, 4 form the input terminals for connecting to the two phases of a three-phase network, the common connection point of the windings 3, 4 forms the third input terminal for connecting to the zero output of the network.

The secondary windings 5 and 6 are shunted by respectively opening contacts 8 and 9 of relay 10 and 11, the windings of which are connected, respectively, parallel to the primary windings 3 and 4 of transformers 1 and 2.

The power source (Fig. 2) contains two single-phase transformers 12, 13, each of which is made with one primary winding 14, 15 and one secondary winding 16, 17. Free terminals connected in series according to the secondary windings 16 are connected to the input of a single-phase bridge rectifier 18 , 17. One ends of the primary windings 14, 15 form two input terminals for connection to the two phases of a three-phase network, and the common connection point of the windings 14, 15 forms a third input terminal for connection to the third phase of the network.

The secondary winding 16 is shunted by a series-connected disconnecting contacts 19, 20 of the relay 21, 22. The secondary winding 17 is shunted by a series-connected disconnecting contacts 23, 24 of the relay 25, 22.

The windings of the relay 21, 25 are connected in parallel to the primary windings 14, 15, respectively. The winding of the relay 22 is connected in parallel to the windings 14, 15 connected in series.

The power source works as follows.

During normal operation, both transformers 1 and 2 are connected to the phase voltages UA and UB, respectively. Relays 10 and 11 operate and open their contacts 8, 9. The secondary windings 5, 6 of transformers 1 and 2 are turned on according to series and the voltage Uc (Ua + Ub) is formed at their terminals (at the input of the bridge).

When the voltage UA, for example, disappears, the relay 10 de-energizes and closes its contact 8 shunting the secondary winding 5 of the transformer 1. The voltage Ut is applied to the input of the bridge.

When the voltage UB disappears, the relay 11 is de-energized and closes its contact 9, which shunts the secondary winding 6 of the transformer 2. At the input of the bridge, the voltage Ua arrives.

Thus, under both normal and emergency modes (for example, during deep failures, short-term or long-term power outages of one of the network phases), a single-phase bridge rectifier 7 is supplied with a voltage equal to the phase voltage of the network and, therefore, the power supply mode of the consumers is not disturbed.

The power source works as follows.

During normal operation, both transformers 12 and 13 are connected, respectively, to the line voltages of UAB and UBC. Relays 21, 22 and 25 operate and open their contacts 19,20, 23, 24. The secondary windings of transformers 12 and 13 turn out to be connected in series and at their terminals (at the input of the bridge rectifier 18), the voltage Uac - (Dab + Ubc) is formed.

When, for example, the voltages UA of the relay 21 and 22 become de-energized, they close their contacts 19, 20, respectively, and shunt the secondary winding 16 of the transformer 12. At the input of the rectifier 18, the voltage Uab is supplied.

When the voltage Uc disappears, the relays 22 and 25 de-energize, close their contacts 23 and 25, respectively, and shunt the secondary winding 17 of the transformer 13. To the input of the rectifier 18, the voltage Uab is supplied.

When the voltage of the UB disappears, the relays 21 and 25 de-energize (the voltage applied to the windings of the relays 21 and 25,

equally

UAC.

and close their pins 19 and

23. Relay 22 remains on and, consequently, its contacts 20 and 24 are open.

The secondary windings 16, 17 of transformers 12, 13 are turned on according to a series and the input of the bridge, as in normal operation, receives the voltage Uac - (Uab + Ubc).

Thus, in this case, in emergency mode, the power supply to consumers is not disturbed,

Claims (1)

Invention Formula 1, A power supply containing two single-phase transformers, each made with one primary and one secondary windings, and a rectifier, with one ends of the primary windings forming two output terminals, and a common the connection point of the other ends of the primary windings forms the third input terminal, the secondary winding of the first transformer is connected in series with the secondary winding of the second transformer, and the free ends of the secondary windings form terminals for connecting a rectifier, characterized in that, in order to increase reliability by maintaining single-phase at the input the bridge voltage rectifier in the event of an accident, each of the secondary windings is shunted by the opening contacts of the relay, the windings of which are connected in parallel with worm windings corresponding transformers. 2, the power supply according to claim 1, which is characterized by the fact that, in order to maintain a single-phase bridge voltage rectifier at the input, accidents, two input pins are phase, and still others are zero. 3, The power supply according to claim 1, which is that, in order to maintain a single-phase bridge voltage rectifier at the input, in the event of an accident, all three input pins are phase, a third relay is additionally introduced. whose winding is connected in parallel serially connected primary windings, and each contact is connected in series with a corresponding break contact of the first and second relays. CZ FIG. 2